A Carlton c.ompany
Video Systems, Inc digital disk recorder
A60
A60
Abekas
A60 DIGITAL DISK RECORDER
Operation Manual
Installation Guide
(REV 1.2)
copyright March 1988
Abekas Video Systems, Inc.
101 Galveston Drive
Redwood City
California 94063
Table of Contents
Section 1: INTRODUCTION
1.1
1.1 Description ...••... 1.1
1.2 Physical Description ...•.••... 1.2
1.2.1 Control Panel ... 1.2
1.2.2 Main Electronics Chassis ... 1.2
1.2.3 Additional Disk Drive Chassis (optional) .. 1.2
Section 2: SYSTEM SET-UP
2.1
2.1 Initial System Connections ... 2.1
2.2 Configuring the Analog Outputs ...•... 2.2
2.3 Power-Up Procedure ... 2.2
2.4 Power-Down Procedure ...•...•...•.. 2.4
2.5 System Timing ... 2.5
Section 3: FAMILIARIZATION
3.1
3.1 Controls and the Display ... 3.1
3.2 Description of Keys ... 3.1
3.2.1 FUNCTION KEYS ... 3.1
3.2.2 TRANSPORT KEYS ... 3.3
3.2.3 SEGMENT AND LOOP KEYS ... 3.3
3.2.4 NUMERIC KEYPAD ... 3.4
3.3 Menu Monitor ... 3.5
3.3.1 THE HOME MENU ... 3.6
3.3.2 HOME MENU LINES ... 3.7
3.3.4 SETUP MENU LINES ... 3.9
3.3.5 MACROS MENU ... 3.11
3.3.6 MACROS MENU LINES ... 3.11
3.3.7 REMOTE MENU ... 3.13
3.3.8 REMOTE MENU LINES ... 3.13
3.3.9 DIAGNOSTICS MENU ... 3.15
3.3.10 DIAGNOSTICS MENU LINES ... 3.15
3.3.11 GPI MENU ... 3.17
3.3.12 GPI MENU LINES ... 3.17
3.3.13 RECORD LOCKOUT MENU ... 3.18
3.3.14 RECORD LOCKOUT MENU LINES .... 3.18
3.3.15 MISCELLANEOUS MENU ... 3.19
3.3.16 MISC MENU LINES ... 3.19
3.3.17 SEGMENTS PLAY MENU ... 3.21
3.3.18 Segs Play Menu Lines ... 3.21
3.4 The Tlmecode and Frame Numbers •••.•....•..•... 3.23
3.4.1 The Control Panel Display ... 3.23
3.4.2 The Menu Monitor Display ... 3.23
3.4.3 The Preview Monitor Display ... 3.23
Section
4:
OPERATION
4.1
4.1 Playback Functions ••••.•••••.••.••••.•••...••...• 4.1
4.1.1 OUTPUT MONITORING ... 4.1
4.1.2 FIELD OR FRAME OUTPUT ... 4.1
4.1.3 INTERPOLATOR MODES ... 4.2
4.1.4 PLAY MODES ... 4.2
4.1.6 THE JOG KEYS ... 4.3
4.1.7 THE GOTO KEY ... 4.3
4.1.8 THE LOOP KEY ... 4.3
4.1.9 TRIMMING LOOPS ... 4.4
4.2 Recording Functions ...•...•.•.. 4.6
4.2.1 VIDEO INPUT SELECTION ... 4.6
4.2.2 SIMPLE RECORDING ... 4.6
4.2.3 FIELD AND FRAME RECORD LENGTHS 4.6
4.2.4 CALCULATE RECORD LENGTH MODE. 4.7
4.3 RECORD LOCKOUT Mode •.•.•.••.•..••...•... 4.8
4.3.1 RECORD LOCKOUT SEGMENTS ... 4.8
4.3.2 CREATING A LOCKOUT SEGMENT .... 4.9
4.3.3 DELETING A LOCKOUT SEGMENT .... 4.9
4.4 SEGMENT PLAY Mode ....•....•....•.•... 4.10
4.4.1 SEGMENT LIMITS ... 4.10
4.4.2 DEFINING .SEGMENTS ... 4.10
4.4.3 THE SEGMENTS PLAY MENU ... 4.10
4.4.4 THE GOTO KEY AND SEGMENTS ... 4.11
4.4.5 LOOPING SEGMENTS ... 4.11
4.4.6 USING THE SEGMENTS PLAY MENU .. 4.11
4.4.7 SEGMENT EXAMPLES ... 4.13
4.4.8 DELETING AND MOVING SEGMENTS .. 4.13
4.4.9 COPYING SEGMENTS ... 4.14
4.4.10 SEGMENT SPEED ... 4.14
4.4.11 SEGMENT PAUSE ... 4.14
4.5 MACROS •...•.••.••..•.•.••••.•.•••.•••... 4.16
4.5.1 MACROS MENU LINES ... 4.16
4.5.2 CREATING A MACRO ... 4.17
4.5.3 FRAME RECORD MACRO EXAMPLE ... 4.18
4.5.4 RUNNING A MACRO ... 4.18
Section
5:
REMOTE OPERATION
5.1
5.1 REMOTE MENU SELECTIONS ••.•.•.•.•••..••....•.• 5.1
5.2 SERIAL REMOTE CONTROL .•.•.•.•.••••.•.•.••.... 5.4
5.3 ETHERNET •...•...••••...•.•....•....•.•..•• 5.5
5.4 COMPUTER 232 CONTROL ...•....••...•... 5.7
5.5 THE TIMECODE TRIGGER MODE •.•.•.•...•....•.. 5.8
5.6 GPI CONTROL ....•....•.•...••... 5.9
Section
7:
INDEX
7.1
Section 8: INSTALLATION GUIDE
8.1
8.1 Physical Mounting ....•.•.•.•...•....••.•••... 8.1
8.2 System Interconnects ..•...•..••.•.•..•..•••... 8.1
8.2.1 Signal System to Disk Drive Connections . 8.1
8.2.2 RIBBON CABLE CONNECTION TABLE .. 8.1
8.2.3 Control Panel to Signal System Connection8.3
8.2.4 Control Panel to Menu Monitor Connection 8.3
8.3 Video Connections ...•...•... 8.4
8.3.1 Reference ... 8.4
8.3.3 Video Outputs ... 8.4
8.3.4 Analog Sync Outputs ... 8.4
8.3.5 Early Output Syncs ... 8.4
8.4 Detailed Pin-Out Information ... 8.5
8.4.1 Keyboard Interconnections ... 8.5
8.4.2 KEYBOARD CABLE PIN LISTING ... 8.5
8.4.3 The SMPTE and AUX RS422 Connections 8.6
8.4.4 SMPTE CONNECTOR PIN-OUT ... 8.6
8.4.5 The RS232 Connections ... 8.7
8.4.6 RS232 PIN LISTING ... 8.7
8.5 Editor Interfacing ... 8.8
8.5.1 CMX Editors/RS232 ... 8.8
8.5.2 CMX Editors/RS422 ... 8.8
8.5.3 SMPTE Editors/RS422 ... 8.9
8.6 A53D Interfacing ... 8.10
8.7 GPI Connections ... 8.11
8.7.1 GPIINPUTS ... 8.11
8.7.1.1 The "Dry" Method ... 8.11
8.7.1.2 The External Voltage Method ... 8.12
8.7.2GPIOUTPUTS ... 8.13
8.8 ANALOG OUTPUT CONFIGURATION ...•... 8.14
8.8.1 INTRODUCTION ... 8.14
8.8.2 Y,R-Y,B-YWITH SYNC ON Y ... 8.15
8.8.3 Y,R-Y,B-YWITH NO SyNC ... 8.17
8.8.4 R,G,B WITH SYNC ON GREEN ... 8.19
Section
1:
INTRODUCTION
1.1 Description
The A60 is a real-time component digital recotding device, providing real-time playback in forward or reverse, variable playback speeds and random access to recorded material. The A60 conforms to the 4:2:2 component digital standard and provides CCIR 601 input and output ports for interface to other CClR 601 equipment, making it ideal to use in various graphics environments.
Functionally, the A60 will perform like a playback or a record VTR, configured in one of two capacities; the standard configuration of either 25 seconds for the 525 version or 30 seconds for the 625 version, and the optional configuration of 50 seconds for the 525 ver-sion or 60 seconds for the 625 verver-sion.
The A60 has two CCIR 601 video input ports, either one may be selected for recording pur-poses. The Abekas A20 digital video encoder should be used if the input is to be originat-ing from an analog component source, such as an RGB camera or a component VTR. The A60 has several video output configurations present. The program output is available both in the digital CCIR 601 format, and as an analog signal that is either RGB or Y, R-Y, B-Y. Sync is available as a seperate output and may be added to the G or Y output. The preview output is available in either of the analog formats, and will only differ from the program output by the presence of the time code and frame position infonnation placed over it.
1.2 Physical Description
In a 25 (or 30 if 625) second version, the A60 consists of a main electronics chassis with an integral Winchester disk drive assembly, and a control panel. A 50 (or 60 if 625) second version requires an additional disk drive assembly to be mounted near the main electronics chassis.
1.2.1 Control Panel
The compact control panel (4.5"H x 1l.75"W x 3.5"D) consists of a 5 digit frame number or time code display, a trackball, control keys and a numeric keypad. There is also a monochrome analog video output from the control panel to be fed to a black and white monitor for displaying system status and allowing access to the various features of the A60. The 5 digit display will show the current position of the disks either as a frame number or as a time code number.
The trackball may be used for browsing through the material on the disks, as well as for sys-tem timing operations.
The numeric keypad allows instant access to a frame/field number, as well as providing a means to precisely set system set-up values.
The control keys consist of; disk control keys using normal transport command terminol-ogy, segment control keys for defining in and out points of a segment or a loop, and func-tion keys for system set-up, configurafunc-tion and access to the menu monitor funcfunc-tions.
1.2.2 Main ElectroniCS Chassis
The systems main electronics chassis (12.25"H rackmount) contains the printed circuit boards that control the various aspects of the A60, as well as a Winchester disk drive as-sembly that will provide 25 seconds (or 30 if 625) of time for the A60 system.
1.2.3 Additional Disk Drive Chassis (optional)
The optional disk drive chassis (71t
Section
2: SYSTEM SET-UP
2.1 Initial System Connections
75nCOAX
(BNC) \
Below is a simplified system interconnect drawing of the A60. The component analog program and preview outputs of the system differ only in that the preview monitor will have
the current disk position placed on it. These component analog outputs may be configured for either R, G, B or Y, R-Y, B-Y. See section 2.2 on the next page for more infonnation on this.
The control panel will have two connections made to it; the serial communications cable from the main chassis and a BNC cable to a monochrome menu monitor. To make these connections, it will be necessary to remove the rear cover of the control panel.
For more detailed infonnation on system connections, see the INSTALLAnON GUIDE found in the back of this manual.
MENU MONITOR
PROGRAM
Component
- - - - Analog
-I
Control Panel Communications and Power
(750 BNC)
A60 Main Chassis
E::I
CCIR 601 Digital Inputs and Outputs-
7 Abekas Supplied Ribbon Cables2.2 Configuring the Analog Outputs
The Preview and Program analog outputs may be configured for either R, G, B, or Y, R-Y, B-Y by setting the following jumpers on the A60's Computer board as shown. The unit is shipped as R, G, B with no sync on the G output.
NOTE: To change from the current configuration to a new one, even to just add sync, will require some level adjustments to be made. See section 8 of the INSTALLATION GUIDE for the procedeures to follow.
For R, G, B outputs ...
Remove jumpers W1, W2, W8, W10 Install jumpers W3, W4, W5, W7, W9
For V, R· V, B-V outputs ...
Remove jumpers W3, W4, W5, W7, W9 Install jumpers W1, W2, W8, W10
For sync to be placed on the G or Y output, jumper W6 should be installed, in addition W5 should be installed for sync on the Y component There are two spare jumpers included with the board extractor that may be used if needed. The INSTALLATION GUIDE in the back of this manual should be consulted for more infonnation on connections to the A60.
2.3 Power-Up Procedure
A 25 or 30 second version of the A60 will have one power switch for the whole signal sys-tem chassis, located on the front lower right hand side of the unit. The additional disk drive chassis of a 50 or 60 second version will have its own power switch, located on the rear of its chassis. Ensure that both switches are in their off positions before plugging in the power cords.
The signal system chassis requires an outlet with a rating of 8 amps, the additional disk drive chassis requires an outlet of 5 amps. Plug the power cord from each unit into a properly grounded 110V AC outlet.
Locate the computer board in the A60 chassis, board 3, and note the position of the switch on the front edge. This switch must be set to its down position before applying power.
IMPORTANT
POWERING UP THE SYSTEM.
Step 1
Set the computer board switch to the DN position (to the left).Step 2
Apply power to the optional disk drive chassis (if present).Step 3
Apply power to the signal system chassis.Step 4
Set the computer board switch to the UP position (to the right).The disk drives require approximately 45 seconds to "sequence up", that is, to come to work-ing speed. It is possible to have the menu monitor display the status of the disk drives during this locking up process, by following the steps on the next page.
MONITORING THE DRIVE STATUS
Step 1
Press the NORM PLAY key. This should get the HOME menu to be displayed on the screen. See page 2.3.Step 2
Press the MENU key until the cursor is sitting on the line 4)Diagnos-tics,
and press the ENTER key. This should bring up the DIAGNOS-TICS menu, which contains a display at the bottom with disk drive status infonnation.The names" drY OY" and" drY ~C' refer to the disk drives supplying the first 25 or 30 seconds (depending on whether this A60 is a 525 or a 625 system) of video. The names "drv 1Y" and "drv 1 C' refer to the disk drives supplying the second 25 or 30 seconds of video. Fol-lowing each of these drive names will be the status of that drive.
UP
Indicates that the drive is running and ready to use.
DOWN
Indicates that the drive is not running (or is not present), or that it is still coming up to speed.
UNLOCKED
Indicates that the drive speed is getting close to full speed, and the locking up process is beginning.
LOCKING
Indicates that the drive is up to speed and is in the final stages of attaining the UP status.
2.4 Power-Down Procedure
Ideally, the A60 should remain powered up at all times. If it is necessary to power down
the system, the following procedure should be followed.
IMPORTANT
The disk drives should not be moved or jarred while powered up. Before undenaklngany activity which would cause excessive vibration, such as the Installation of equipment In the A60's rack, follow the power down procedure described below.
POWERING DOWN THE SYSTEM.
Step
1
Set the computer board switch to the DN position.Step 2
Wait approximately 20 seconds, until there is a "clunk" sound from the disk drives.Step 3
Tum off power at the optional disk drive chassis (if present).2.5 System Timing
Once the system is powered up, the menu moniter should display the HOME menu as shown below. If not, press the NORM PLAY key to get the correct menu display. Press the MENU key until the cursor is sitting on 1) Setup, and press the ENTER key on the numeric keypad. The display should appear similar to the SETUP menu.
HOME MENU
NOTE: USING WITH ENCODERS
SETUP MENU
The MENU button will allow the cursor to be positioned on one of the nine items current-lyon display.
SETTING THE A60'S SYSTEM PHASE.
Step
1
Select 1) COARSE HPHASE, and press ENTER at the numeric keypad. The entire line now becomes reverse video, and the output timing may be adjusted with regards to reference in 2 pixel steps (148ns steps), by using either the trackball or the numeric keypad to alter the current value. This adjustment has a range of +/-50 pixels (+/-7.4 J.lS).Step 2
Select 2) FINE HPHASE, as above. This will allow a fine adjustment in Ins steps, with a range of +/-lOOns, once again using the trackball or numeric keypad.This completes the system timing requirements for the A60. For more information on the
Section 3: FAMI LIARIZA liON
3.1 Controls and the Display
The control panel consists of a 5 digit frame number or time code display, a trackball, con-trol keys and a numeric keypad. The concon-trol panel will also feed a menu monitor that will display system status information.
The 5 digit display will show the current position of the disks either as a frame number or as a time code number.
The trackball may be used for browsing through the material on the disks, as well as for sys-tem timing operations.
The numeric keypad allows instant access to a frame/field number, as well as providing a means to precisely key in system set-up values.
The control keys consist of; disk control keys using normal transport command terminol-ogy, segment control keys for defining in and out points of a segment or a loop, and func-tion keys for system set-up, configurafunc-tion and access to the menu monitor funcfunc-tions.
3.2 Description of Keys
3.2.1 FUNCTION KEYS
This is the group of 5 keys along the upper left of the control panel. The fourth key is reserved for future use and is currently blank.
NORMPLAV
Performs two functions; when lit, indicates that the NORMAL PLAY mode is active, when not lit, the SEGMENT PLAY mode is active. Selecting this key will also display the
HOME menu on the menu moniter, regardless of what menu is currently being displayed. A segment may be defined only in this mode.
FREEZE
A toggle function that, when lit, will cause the output of the A60 to be frozen, even if the disk is still playing. The freeze will be either a field or a frame, based on the status of line 4 in the SETUP menu.
VIDEO IN
A toggle function that, when lit, will allow the selected video input to pass through the electronics and be presented directly at the output of the A60.
MENU
3.2.2 TRANSPORT KEYS
This is the group of seven keys located at the lower left of the control panel.
VAR PLAY
Will play the disks at either a speed selected on the keypad or at the last speed used. A value of 0.500 would result in a speed that is half the play speed, a value of -5.000 indicating a
speed of 5 times play speed in the reverse direction. The speed value will be displayed at the top of the menu monitor, once this mode is selected.
RECORD
Will "ann" the system for a recording to take place. Pressing the PLAY~ key actually starts the system recording. The length of the recording should be specified with the numeric keypad before the RECORD button is pressed. The record length that was last used will be used if none is specified.
+-JOG and JOG~
Will provide a field or a frame step function through the recorded material, based on the set-ting of menu line 5 in the SETUP section.
+-PLA V and PLA V ~
Will playback a recording in either the forward or the reverse direction, normally at play speed. An alternate speed may be selected at the numeric keypad prior to pressing one of these keys. These keys will also initiate the playback of a segment or a loop.
STOP
Is used to halt the playback or record process, as well as to regain local control of the sys-tem when under external computer control.
3.2.3 SEGMENT AND LOOP KEYS
This is the group of six keys located to the right of the transport control keys.
SEGS PLAY
Will bring up the SEGMENTS menu on the menu monitor, which will then allow the edit-ing of the segments present.
TRIM
Can be used in all modes to trim a number that had previously been entered. When using this function, the sign key ( +/. key), must be pressed to select the polarity of the trim value. Should the sign key not be pressed, the value will be treated as an absolute and not a trim.
IN and OUT
Used to specify boundries for segments and loops.
LOOP
May be used to get the system to either playback a portion of the disk repeatedly as specified by the IN and OUT keys, or to establish a loop in a series of segments. In both cases, press-ing either the V AR PLAY or a PLAY key will start the LOOP playback.
SEG
3.2.4 NUMERIC KEYPAD
This is the group of sixteen keys in the center of the control panel. A number that is selected here will appear on the menu monitor in a temporary register area located on the lower left of the screen .
. ENTER
Will allow the modification of a menu line in several different ways. Should the menu cur-sor be sitting on a non-numeric choice (e.g. an on/off function), pressing ENTER will cause
the alternate choice to be made. Should the menu line be a numeric type, a number may be selected at the numeric keypad and entered by pressing ENTER. Pressing ENTER with no number specified by the numeric keypad will enable the current value to be altered by using the trackball.
FIELD
Is used to specify which field of a frame is to be used for a particular function (to GOTO, an IN value, etc.). The timecode display will indicate that field one is current by display-ing a period between the groups of minutes, seconds, and frames. Field two will be indi-cated by a colon between the groups. This is true wherever the timecode mode is displayed, on the control panel display, the menu monitor display and the preview monitor display. The frame display at the control panel (if chosen on line 6 of the SETUP menu), will show
the number only for field one, and a period in the lower right hand comer for field two. The frame display on the menu monitor will display a n+n after the number if it is field two, and the frame display for the preview monitor will not indicate field one or two.
CLEAR
Will clear the temporary register on the menu monitor.
GOTO
Should be pressed after a time number (either timecode or frames, based on the display selected) has been keyed in, and will cause the disk to position itself to that point. It can also be used to go to a segment number, while in the SEG PLAY mode.
+/-Is used to enter a negitive value, pressed once will give a n+n sign in the temporary register,
pressed twice will give a n -" sign. This is useful both when entering a new value (other than
time), or when trimming an existing value or time .
• (decimal point)
3.3 Menu Monitor
While the menu monitor is not absolutely required for nonnal system operation, it is neces-saryJor most of the special functions (setup, segments, macros etc.).
Reganlless of the menu being displayed, there are a few things that will be constant. A box in the upper left hand comer will show the current disk position in timecode, and a box in
the upper right comer will show the position in frames (a
"+"
indicating field two of the cur-rent frame). The space between these boxes will display various system messages while operating the A60, such as the variable play speed value or record length. The lower left of the monitor will always show a number as it is being selected on the numeric keypad, and3.3.1 THE HOME MENU
Temporary Register
The NORM PLAY key will bring up the HOME menu. It is from this menu that one of the branch menus may be selected in order to access a particular function.
The MENU key will directly affect the position of the cursor as it appears on any given menu. Simply pressing MENU will cause the cursor to drop to the next line present, once at the bottom it will loop back to the top line. Selecting the number of a menu line with the
numeric keypad and then pressing the MENU key will cause the cursor to jump directly to that menu line. Selecting a two digit number before pressing the MENU key can cause a jump to a menu line that is not part of the menu being displayed. The first digit specifies
the HOME menu line number, the last digit specifies the actual desired menu line.
Step 1
Select the numbers 1 and 6 on the numeric keypad, and press theMENU key. This should bring up the Setup menu (line 1 of the HOME
menu), and position the cursor on line 6) TIME DISPLA Y. The
ENTER key may now be pressed to change the setting of this mode.
Step 2
Note the status of menu line 4)FREEZE. Select the number 4 on thenumeric keypad, and press the MENU key. The cursor will jump to menu line 4)FREEZE, and will also change its current status.
As a general rule, numerically selecting a menu line of a menu not currently being displayed (using a two digit number) will change the menu display to that menu, park the cursor on that line, but not change that lines status. Numerically selecting a menu line of the menu that is currently being displayed 1Wl change the status of that line (when applicable), as well as parking the cursor on it.
Once the correct menu line has been selected, a value may be pressed at the numeric keypad and entered, by pressing the ENTER key, or, if the line is a non-numeric type, an alternate choice made by simply pressing the ENTER key. If the line has a numeric type value and no value is selected at the numeric keypad, pressing ENTER will cause that line to become reverse video, and allow the trackball to alter the current value.
3.3.2 HOME MENU LINES
1) Setup
This menu contains system timing parameters and various system operating variables.
2) Macros
This menu will deal with the creating and modifying of macros. A macro is a command that can be taught to perfonn a string of functions, thus simplifying a repetitive task.
3) Remote
This menu will allow the configuration of the remote port, and access to the tape off-line streaming functions.
4) Diagnostics
This menu will show the software revision level of the system, allow the selection of a digi-tally generated test pattern, and show the status of the "early syncs" mode.
5) GPI Assigns
This menu will allow the configuration of both the input OPIs and the outputOPIs. An input OPI (General Purpose Interface) may be used to allow an external device to start a particular function (run fwd etc.), or the running of a macro. An output OPI can be sent to an exter-nal device to trigger it.
6) Record Lockout
This menu will allow the definition of sections of the disk to be locked out, prohibiting recording in these areas.
7) Miscellaneous
3.3.3 SETUP MENU
3.3.4 SETUP MENU LINES
1) COARSE HPHASE
Allows the adjustment of the A60's output with regard to reference. The range is +/-50 pixels (+/-7.4 J.lS), and will adjust in 2 pixel steps.
2) FINE HPHASE
Allows a fine adjustment of the A60's output, with a range of +/-lOOns.
3) INTERP ON/OFF
Determines how the A60 will create a second field when necessary, for example, when in a freeze field mode.
OFF
Will create the second field by simply repeating the previous field.
ON
4) FREEZE
Once the FREEZE key is pressed, this will detennine whether the output will be a FRAME, FIELD 1 or FIELD 2.
5) MACHINE MODE
This will detennine what the system will output when viewing the recorded material in the
STOP mode.
FIELD
The A60 will only send one field, creating the second field based on the setting of the IN-TERP ON/OFFline. The JOG keys and the trackball will position the disk one field at a time.
FRAME
The output will be the entire current frame (time displayed plus the next field). The JOG
keys and the trackball will position the disk one field at a time.
AUTO FRAME
The output will be the entire frame as above, however the JOG keys and the trackball will position the disk one frame at a time, retaining the two field relationship established when this function was selected. The two field relationship will detennine whether the frame of video being output will consist of an odd and even field from the same frame, or the even field of a frame and the odd field of the next frame. The two field relationship may be
changed by pressing the +/-key, the FIELD key, then the GOTO key (this will position the disk ahead by one field, changing the two field relationship). This function may be useful for animation applications.
6) TIME DISPLAY
This will detennine whether the 5 digit control panel display will show the current disk posi-tion as a TIMECODEvalue, or as a FRAMES value. This will also detennine how time numbers will be entered for various functions.
7) MARK OFFSET
This function allows "frame zero" to be redefined anywhere on the disk. The TIME DIS-PLA Yfunction above must be set to the FRAMESmode. Ifnot, there will be an error mes-sage displayed on the bottom of the screen, should an attempt be made to use this function.
The timecode display on the menu and preview monitors will not be affected by this redefin-ing of frame zero, and will display the actual disk time.
The frames display on the control panel will continuously flash should the disk be positioned before this new "frame zero" point. The menu and preview monitors will indicate this con-dition by placing a minus sign in front of the frames value.
8) PVW DISPLAY POSITION
The A60's preview monitor output will have the disk time placed over it, this function will allow the positioning of that time.
9) INPUT SELECT
3.3.5 MACROS MENU
3.3.6 MACROS MENU LINES
The top line shows the number of the current macro, 1 through 12, the step, 1 through 50, and the function of that step. See the OPERATION section 4.5 for operational procedures for createing and using macros.
1) LIST
This will allow the examination of each step in a macro, without actually executing them. The trackball should be used to scroll through the steps.
2) CREATE
Selecting this will start the macro learning process.
3) STEP
This will allow the step by step executing of a macro, with the exception of any record in-structions.
4) EXECUTE
5) END
This should be selected to halt the macro learning process while in the CREA TE mode.
6) DELETE STEP
This will allow a step to be removed from an existing macro. The EDIT MACRO mode, line 8, must be selected before this mode will work.
7) INSERT STEP
This will allow a step to be added to an existing macro. The EDIT MACRO mode does DQ1
need to be enabled first.
8) EDIT MACRO
3.3.7 REMOTE MENU
3.3.8 REMOTE MENU LINES
1) REMOTE BAUD RATE
Allows the selection of either 9600 or 38400 BAUD as the remote communications speed.
2) REMOTE PROTOCOL
PORT OFF
The remote port is inactive.
CMX 12 (CMX I-squared)
The remote port is configured to communicate with a CMX editor.
A53D
SMPTE
The remote port is configured to communicate with a device supporting the S:MPI'E style protocol, such as the Ampex ACE or the OVO editing systems.
SONY
The remote port is configured to communicate with the Sony 900 or 9000 editing systems.
3) EDIT FIELD
This will set the A60's record field dominance, that is, which field of the frame that the recording will start on, when connected to an editing system. An editing system will typi-cally specify a frame number as the point that the A60 should use for a particular function.
The setting here will determine whether field 1 (F1) or field 2 (F2) of that frame is the precise point to be used. For example, a recording at 5 seconds will occur at either "5.00" for field one, or "5:00" for field two.
4) TIMECODE TRIGGER
A timecode time may be specified, such that when it and the timecode coming in through the timecode port in the back of the unit match, the A60 will perfonn the PLAY ~ function.
If the system is anned for a recording (the RECORD key flashing), this function will cause the system to go into the record mode.
5) TAPE BACKUP LENGTH
This is used to determine how much of the disk should be sent to the 9-track streamer tape for back up. The maximum time with 3600' of tape is 10 seconds, with 2400' of tape 7 seconds may be expected. The density at the tape machine should be set to 6250 BPI (Bytes Per Inch).
6) DISK RESTORE LENGTH
3.3.9 DIAGNOSTICS MENU
3.3.10 DIAGNOSTICS MENU LINES
The top of the monitor will show the level of software installed in the various locations of theA60.
1) Select Pattern
These are various digitally generated video test signals that are useful for system alignment and troubleshooting. The pattern selected will not appear until the next line, WRITE PAT-TERN, is selected and entered.
Digital Test
100% Combo
95% Combo
75% Combo
100% Bars
95% Bars
Linear Ramp
Modulated Ramp
Ten Step
Crosshatch
2TPulse
Pluge
Multiburst
Bowtie
2) Write Pattern
This will write the above selected pattern into the framestore, and automatically enable the FREEZE mode. Pressing the FREEZE key will cause the video to revert to off disk.
The bottom of the monitor will show the status of the disk drives, OYand OC refering to the
drives supplying the first 25 or 30 seconds of video, 1 Yand 1 Crefering to the optional drive chassis supplying the additional 25 or 30 seconds. "UP' indicates that the drive is running,
"DOWN' indicates that it is not running , is not up to full speed, or is not present,
"UN-LOCKEV' indicates that the drive is close to full speed, and "LOCKING' indicates that the
3.3.11 GPI MENU
3.3.12 GPI MENU LINES
The first four menu lines are inputs to the system, and are assigned the default functions of
STOP, RUN REV, RUN FWD, and RECORD. These may be assigned by the operator to trigger the running of a particular macro.
The second four menu lines
are
outputs, andare
to be used with the macros to provide a switch closure to an external device. An "X" will flash next to one of these as a pulse is sent out.3.3.13 RECORD LOCKOUT MENU
3.3.14 RECORD LOCKOUT MENU LINES
The top of the display will indicate any record lockout segments that exist (maximum of two lines will show), or will state that none have been defined. Refer to the OPERATION sec-tion 4.3 for operasec-tional procedures in using this funtion.
1) INSERT SEGMENT
Used with the IN and OUT keys to create a lockout segment.
2) DELETE SEGMENT
Will delete the top lockout segment that is showing. In addition, a range of time as specified by the IN and OUT points may have the lockout function removed.
3) LIST SEGMENTS
3.3.15 MISCELLANEOUS MENU
3.3.16 MISC MENU LINES
1) VITC line 1
Allows the choice of a line (12 through 20) in the vertical interval to be recorded and played back with the video. A typical use would be to retain the first line ofVITC (Vertical Inter-val Time Code) from a tape source.
2) VITC line 2
The same as above, but for VITC line 2. Typically line 2 is placed 2 lines from the first line
.(e.g.line 1 on line 15, line 2 on line 17).
3) TCP/IP DEBUG
4) IP ADDRESS
This allows the Internet Protocol address to be specified for this particular A60, and must be specified for communications to occur on the Ethernet network.
The number must be entered in two sections, the left six numbers first, followed by the next six numbers. For example, to enter the number "192.9.200.5", the number 192.009 must first be selected at the numeric keypad, (note the leading zeros and the decimal point, they must be included). Pressing the ENTER key will now enter this as the first six digits. The
number 200.005 may now be selected and entered to complete the process.
The section titled REMOTE OPERATION will have more infonnation on the Ethernet sys-tem. Also see the A60 ETHERNET MANUAL for more detailed infonnation.
5) SYNC ADVANCE OFF
3.3.17 SEGMENTS PLAY MENU
3.3.18 SeAS Play Menu Lines
This menu is attained by selecting the SEGS PLAY key. See the OPERATION section 4.4 for procedures in using this function.
The top portion of the screen is a window that will show two segments. The trackball may be used to scroll through all of the segments present.
1) INSERT SEGMENT
'To be used with COPYor DELETE SEGMENT functions to instruct the system where to place a segment that has been copied or deleted. This is not for creating new segments.
2) DELETE SEGMENT
This will delete the highlighted segment. A deleted segment is held in memory temporari-ly, and may be recalled by selecting INSERT SEGMENT.
3) COpy SEGMENT
4) SEGMENT SPEED
This will allow'the speed of a particular segment to be specified, using the numeric keypad.
5) SEGMENT PAUSE
This will specify that a pause in the running of a list of segments should occur at the end of this segment. The segments playback may be restarted by selecting the proper transport function key.
3.4 The Timecode and Frame Numbers
3.4.1 The Control Panel DiSplay
The control panel 5 digit display can show the disk position in either a timecode (minutes, seconds, frames) style or in frames. To change the display to the alternate style, follow the steps below. '
CONTRO~
PANEL DISPLAY SELECTION.
Step 1
Press the NORM PLAY key, if necessary, to bring up the HOME menu.Step 2
Press the MENU key, if necessary, to position the cursor on 1) Setupand press ENTER, or select the number 1 on the keypad, and press MENU.
Step 3
Press the MENU key as required to position the cursor on 6) TIME DIS-PLAY.Step 4
Press the ENTER key to toggle to the alternate display style.The display will indicate whether the current field is field one or field two of the current frame in one of two ways. Should the display be in the timecode mode, field one will be in-dicated by a single dot separating the groups of digits, field two will have two dots. Should the display be in the frame mode, field one will have no dot, field two will have one dot in the lower right comer.
3.4.2 The Menu Monitor Display
At all times, the menu monitor will show the current disk time in both timecode and frames. The timecode number will indicate the current field as is done on the control panel display, the frame number will indicate field two by placing a "+" after it.
3.4.3 The Preview Monitor Display
The preview monitor output of the A60 will display the current disk time in both styles, the
timecode mode indicating fields as above, the frames display does not indicate which field is present. The time display may be positioned on the preview monitor by following the
steps below. .
POSITIONING THE PREVIEW MONITOR TIME DISPLAY.
Step 1
Press the numbers 1 and 8 on the keypad, followed by the MENU key. This will select the SETUP menu, and will position the cursor on line 8PVW DISPLA Y POSITION.
Step 2
Press the ENTER key to cause the time display to be repositioned. Each press will cause the time display to move down, once at the bot-tom it will jump back to the top of the preview monitor screen. TheENTER key may be held down to cause a repeat function, releasing the
Section
4:
OPERATION
4.1 Playback Functions
The playback functions rely on a basic knowledge of the A60 controls and menu monitor usage. Section 3 "FAMlUARIZATION" should be consulted if necessary.
The INSTALLATION GUIDE in the back of this manual should be consulted if there are any questions as to how the A60 should be connected into your system.
Ensure the NORM PLAY key is lit for the following functions.
4.1.1 OUTPUT MONITORING
There are two video outputs from the system, a program output and a preview output. The program output is the main output, and should be dealt with as such. The preview output is essentially the same, with the addition of the disk position numbers (tiroecode and frames) being superimposed over it (see section 3.4 for infonnation on positioning these numbers on the screen).
4.1.2 FIELD OR FRAME OUTPUT
When the A60 is stopped, either a frame or a field may be displayed on the output. To choose
the desired output, proceed as follows.
SETTING THE MACHINE MODE.
Step 1
Select the Setup line of the HOME menu, and press ENTER.Step 2
Select line 5, MACHINE MODE, and press ENTER to select the desired mode.FIELD
When in the field mode, only the current field will be the output to the monitor. This is use-ful when the video to be played back has a significant amount of motion, which may yield unacceptable amounts of intertield flicker should either of the frame modes be used.
FRAME
When in this mode, the current field plus the next sequential field will be displayed. Using JOG or the trackball will cause the disk to be scanned at one field increments.
AUTO FRAME
AUTOFRAME MODE EXAMPLES
vvvv
OutputFrame Output Frame Output Frame Output Frame
vvv
OutputFrame
Output Frame
4.1.3 INTERPOLATOR MODES Output Frame
Timecode will show field one:
1.00 1.01 1.02
etc.
Timecode will show field two:
1:00 1 :01 1:02
etc.
The Interpolator function setting will affect the output of the A60 at all times, except at the nonnal play speed (one times forward). Its affect will generally be most noticable when in still motion with field mode selected, orin the freeze mode with field selected, or when play-ing at a speed close to one times forward. To change its settplay-ing, proceed as follows.
CHANGING THE INTERPOLATOR MODE.
ON
Step
1
Select the Setup line of the HOME menu, and press ENTER.Step 2
Move the cursor to line 3, INTERP ON/OFF, and press ENTER to select the desired mode.Whenever it is necessary for the A60 to create a field to be sent to the monitor, such as in the freeze mode with field selected, or when playing at any speed other than +/-1 times play, the A60 will create the next field using an averaging method that could make the output sub-jectively better looking, with smoother diagonal transitions. There may be anoticable reduc-tion in the sharpness of the fine detail while this is on.
OFF
The A60 will simply take the current field and make it the next field as well, whenever it encounters the above situations.
4.1.4 PLAY MODES
The forward and reverse PLAY keys provide real-time playback of recorded video.
Pressing the ~PLA Y key will perfonn as above, except going in the opposite direction. The menu monitor will display "_01.000".
Pressing the STOP key will cause any playback to halt.
The PLAY speed may be altered from its nonnal value, by selecting the desired speed at
the numeric keypad before pressing one of the PLAY keys. The acceptable range is
+/-
30 times play speed, with 0.001 (1.8 frames per minute 525, 1.5 frames per minute in 625) being the slowest speed available.EXAMPLE: To playback at a speed of 1.5 times normal.
Step 1
Type in 1.5 at the numeric keypad.Step 2
Press the PLAY ~ key.The menu monitor will display "01.500" during playback. Pressing the ~PLAY key in step 2 would have caused the playback to go in the reverse direction, and the menu monitor to display" -01.500" .
Once playing back at the selected speed has concluded, either by reaching the end of the disk or pressing the STOP key, the play speed will revert to the nonnal speed of +/-1.000, the next time that the PLAY mode is selected.
4.1.5 THE VAR PLAY KEY
The V AR PLAY key has the same speed limits as the PLAY keys, with the following
dif-ferences in their application. The direction of the speed must be specified at the keypad with the +/-key. The V AR PLAY key will remember the last speed used, with the exception of when either end of the disk is reached, at which time the preset speed will change to 0.000.
The V AR PLAY speed may be altered with the trackball while the A60 is playing back in the V AR PLAY mode.
4.1.6 THE JOG KEYS
The forward or reverse jog keys will provide a field or frame step function through the recorded video. The MACHINE MODE setting (Setup menu, line 5) will detennine whether the increment will be a field at a time (FIELD or FRAME selected), or a frame at a time (AUTO FRAME selected).
4.1.7 THE GOTO KEY
The GO TO key is used to instantly access the video at a specific timecode or frame num-ber. The number used must be of the same type as the control panel is displaying (timecode or frames), and should be selected at the numeric keypad. Pressing GOTO once the num-ber is selected will cause the disk to move, instantaneously, to the selected position.
4.1.8 THE LOOP KEY
EXAMPLE: Creating a playback loop using the IN and OUT keys.
Step
1
Using the trackball or the numeric keypad, position the disk to thedesired start point of the loop.
Step 2
Press the IN key.Step
3
Position the disk at the desired end point of the loop.Step
4
Press the OUT key.Step
5
Press the LOOP key.The A60 will now run this loop if either of the PLAY keys are pressed, or if the V AR PLAY mode is selected. The STOP key should be pressed to stop the loop. The loop function is active as long as the LOOP button is lit.
EXAMPLE: Creating a playback loop with a specified duration.
Ste p
1 Position the disk at the starting point by using either the GOTO key orthe trackball.
Step 2
Type the duration of the loop on the numeric keypad.Step 3
Press the LOOP key.The A60 will now run the loop as in the previous example.
Once a loop has been defined, and while the LOOP key is lit, the A60 in all playback modes will remain within the boundries of the loop. This includes when using the trackball.
4.1.9 TRIMMING LOOPS
A loop may be trimmed in one of three ways. A new IN or OUT point can be entered direct-ly, or the TRIM key may be used as below.
EXAMPLE: Trimming a loop with the TRIM key and the numeric
keypad.
Step 1
Define a loop using either of the previous examples.Step 2
Select the TRIM key (it will start flashing), and on the numeric keypad press the +1-key to detennine the trim direction.Step 3
Using the numeric keypad, type in the amount of the trim, and select theIN or OUT point to be trimmed.
EXAMPLE: Trimming a loop with the TRIM key and the trackball.
Step 1
Define a loop.Step 2
Press the TRIM key. This will cause it to start flashing, and now the trackball can be used to position the disk to points outside the loop boundries.Step 3
Position the disk to a point after the loop out point, and press the OUT key.These same steps may be used to change the IN point, by using the IN key in place of the OUT key.
4.2 Recording Functions
4.2.1 VIDEO INPUT SELECTION
There are two
cern
601 video inputs provided in the back of the A60. To select the input desired, follow the steps below.SELECTING THE VIDEO INPUT.
Step 1
Select the Setup line of the HOME menu, and press ENTER.Step 2
Select line 9, INPUT SELECT, and by pressing ENTER, select the desired video input.4.2.2 SIMPLE RECORDING
The VIDEO IN key is a toggle function, presing it will cause it to change its status as will be indicated by its light. When the light is on, the A60 will allow the incoming video to be viewed prior to recording. In order to see the disk video, the VIDEO IN key must not be lit.
A recording length must be specified, unless the previously used recording length is satis-factory. To specify a recording length, select a value at the numeric keypad before press-ing the RECORD key.
EXAMPLE: To RECORD for 10 seconds.
Step 1
Position the A60 to the point where the recording is to begin.Step 2
Select a value of 10 seconds at the numeric keypad. (Remember, the control panel display detennines whether time or frames can be entered).Step 3
Press the RECORD key. This will ann the A60 for recording, but not actually start the process.Step 4
Press the PLAY~ key. This will start the A60 recording. The record length should be displayed on the menu monitor during the recording process.After recording, the A60 will be correctly positioned for the next recording, making it easy to assemble a video sequence on to the disk.
4.2.3 FIELD AND FRAME RECORD LENGTHS
To record a single field, simply press the FIELD key as the record length. This will be dis-played on the menu monitor as" :00" (timecode) for the record length (seen once the RECORD key is pressed). This display may be interpreted as zero frames (" .00") plus one field. A colon in the record length always indicates that an extra field will be recorded.
To record a single frame, simply type "1" on the keypad, the menu monitor display will show " .01" for the record length.
4.2.4 CALCULATE RECORD LENGTH MODE
To perfonn insert recordings more easily, a calculate mode is provided on the A60.
The calculate mode allows the IN and OUT points of a recording to be set using the IN and OUT keys. The A60 will park at the in point once the RECORD key is selected, and will calculate the record length based on the difference of the two points.
EXAMPLE: To use the calculate mode.
Step 1
Select an in point either with the keypad, or use the trackball to position at the desired point, and press the IN key.Step 2
Select an out point as above, using the OUT key.Step 3
Press the RECORD key. The record length should now appear on the menu monitor, and the disk will position itself at the IN point.4~3
RECORD LOCKOUT Mode
4.3.1 RECORD LOCKOUT SEGMENTS
The record lockout function allows segments of Video to be locked out from accidental recordings. A recording may be started on a section of video that is not locked out, and con-tinue over a section that is locked out. The LED on the RECORD key will only be il-luminated when actual recording is taking place, turning it off for the locked out portion of the disk. Multiple segments may be locked out.
4.3.2 CREATING A LOCKOUT SEGMENT
EXAMPLE: Creating a record lockout segment.
Step 1
Press the number 6 on the keypad, and then the MENU key. This will call up the record lockout menu, which initially should say "NO LOCK-ED SEGMENTS DEFINLOCK-ED". If not, put the cursor over 2) DELETE SEGMENT, and press the ENTER key until it is indicated that no more segments exist.Step 2
Place the cursor on 1) INSERT SEGMENT.Step 3
Locate a starting point using either the trackball or the GOTO key, and press the IN key.Step 4
Locate an ending point as above, pressing the OUT key.Step 5
Define this as a record lockout segment by now pressing the ENTERkey (the cursor should still be sitting on 1) INSERT SEGMENT).
Step 5
Further segments may be defined in this manner, if needed.Step 6
The record lockout segments may now be listed by placing the cursor on3) LIST SEGMENTS, and pressing ENTER. The trackball may be used to scroll through the segments.
4.3.3 DELETING A LOCKOUT SEGMENT
The DELETE SEGMENT function will delete the top record lockout segment that is dis-played.
A range of time may have the RECORD LOCKOUT function removed, by specifying an IN point and an OUT point before selecting the DELETE SEGMENT mode.
EXAMPLE: To turn the LOCKOUT function off for the entire disk.
Step 1
Type "0" then press the IN key.Step 2
Type "2500", then press the OUT key. If frames are currently being dis-played on the control panel, then the number "750" should be selected as the OUT point. Should the system have the optional additional disk drive, then "5000" for timecode or "1500" for frames should be entered. For a 625 A60, the number keyed in for a 30 second version will be "3000" for time code display, or "750" for frames. The 60 second ver-sion should have the number "6000" for timecode and "1500" for frames display selected as the OUT point.4.4 SEGMENT PLA V Mode
4.4.1 SEGMENT LIMITS
The segment play mode allows the creation of a random playback list of segments, each with its own in and out point, and with its own unique speed, if desired.
A maximum of 99 segments may be programmed at one time, however there are a few other limitations.
A single disk system (the 25 or 30 second version of the A60), will generally need to freeze
the output video while the disk drive is seeking from the end of one segment to the start of
the next. The maximum amount of time for this is 2 frames, the actual amount will depend on how far it must seek.
A two disk system (the 50 or 60 second versions), within certain limits, will not have this problem. A maximum of 24 segment starts per disk (48 total) will perform seamless tran-sitions between segments. The disk from which a segment will start is determined by the
IN point timecode. "00.00.00" to "00:24:29" would be disk one in a 525 system, anything above this would be disk two. The 625 limits would be from "00.00.00" to "00:29:29" for disk one. Any segments above the limit of 24 on a drive will have the possibility ofa freeze taking place, as in the single disk system.
4.4.2 DEFINING SEGMENTS
The NORM PLAY mode must be active in otderto define a segment. A segment is defined by selecting an IN and an OUT point, and then pressing the SEG key.
EXAMPLE: Defining a segment.
Step 1
Ensure the NORM PLAY mode is active.Step 2
Using the trackball or GOTO key, select the desired start point of the segment.Step 3
Press the IN key to define this as the start point.Step 4
Now position the disk for the end point.Step 5
Press the OUT key to define this as the out point of the segment.Step 6
Press the SEG key. The bottom of the menu monitor will flash that a segment has now been defined, as well as the number of that segment.Step 7
Repeat until there are several segments defined.4.4.3 THE SEGMENTS PLAY MENU
Selecting the SEGS PLAY key will bring up the SEGMENTS PLA Y menu. The top of
To now play the list of segments, select either of the PLAY keys, the V AR PLAY function, or use the trackball to scan through the segments. Playback will commence from the point that the A60 is parked at.
4.4.4 THE GOTO KEY AND SEGMENTS
The GOTO key may be used to move the disk to the start of a specific segment, by first selecting that segments number with the numeric keypad, and then pressing the GOTO key.
4.4.5 LOOPING SEGMENTS
The LOOP key may be used to get the system to continually playback a series of segments.
EXAMPLE: Creating a segment loop.
Step 1
Type in the segment number to start from.Step 2
Press the IN key.Step 3
Type in the segment number that is to be the last of the loop.Step 4
Press the OUT key.Step 5
Press the LOOP key.When the segments are started playing, using either of the PLAY keys or the V AR PLAY
key, they will continuously loop until the STOP key is pressed.
4.4.6 USING THE SEGMENTS PLAY MENU
The menu lines allow changes to the segment list to take place, however, new segments may not be created (with the exception of the COpy SEGMENTline).
The following menu lines will affect the top segment (shown highlighted), that is being dis-played.
1) INSERT SEGMENT
This menu line will allow a previously deleted segment to be re-inserted at a different loca-tion in the segment list. The segment will be placed before the highlighted segment.
2) DELETE SEGMENT
This menu line will be used to delete or move a segment. A segment that is deleted will be
retained in memory, and may be placed elsewhere in the list by scrolling to the desired loca-tion (using the trackball), and selecting the INSERT SEGMENTline.
3) COpy SEGMENT
This will make a copy of a segment, which may be placed elsewhere in the segment list by using the trackball or the GO TO function and the INSERT SEGMENT menu line.
4) SEGMENT SPEED
keypad and pressing ENTER (assuming the cursor is sitting on the SEGMENT SPEED
line).
5) SEGMENT PAUSE
A pause may be placed at the end of a segment by using this menu line. Once the system has paused, it may be re-started by pressing any of the keys nonnally used to start a segment play operation. In addition, the JOG~ key may be pressed to cue the A60 to the start of
the next segment, without actually running it.
4.4.7 SEGMENT EXAMPLES
For the following examples, please create a list of 5 or more segments.
4.4.8 DELETING AND MOVING SEGMENTS
EXAMPLE: Deleting a segment.
Step 1
Position the disk, using either the trackball or the GOTO key, to the seg-ment to be deleted.Step 2
Position the cursor over 2) DELETE SEGMENT, and press the ENTER key.This will have deleted the highlighted segment. The A60 will hold this segment in memory, until it is recalled using the INSERT SEGMENT menu line, or another segment is deleted.
EXAMPLE: Moving a segment.
Step 1
Delete a segment as in the above example.Step 2
Position the segment list to another location. The next step will take the segment that was deleted and place it before this highlighted segment.Step 3
Move the cursor to 1) INSERT SEGMENT, and press the ENTER key.The deleted segment will now appear inserted with the number of what was the highlighted segment, and all following segments have their numbers increased by one.
A group of segments may be deleted, however, only the last segment of the group will be retained in memory. An exception is if all segments are deleted, at which point no segments are retained in memory.
EXAMPLE: Deleting a group of segments.
Step 1
Select the number of the first segment in the group to be deleted with the numeric keypad, and press IN.Step 2
Select the number of the last segment in the group, and press OUT.4.4.9 COPYING SEGMENTS
Segments may be copied one at a time (a group copy function is not possible).
EXAMPLE: Tocopyasegmenl
Step 1
Position the segment list so that the desired segment to be copied ishigh-lighted.
Step 2
Position the menu cursor over 3) COpy SEGMENTS, and press theENTER key.
Step 3
Re-position the segment list to the point where the copied segment should be placed. The copied segment will be placed in front of this highlighted segment, and will assume its number. The segments follow-ing will have their numbers increased by one.Step 4
Place the menu cursor over 1) INSERT SEGMENT, and press ENTER.4.4.10 SEGMENT SPEED
The speed of a segment is assumed to be the nonnal one times play speed. Should an IN point be placed after an OUT point, a speed of -01.000 will be assumed. The speed of a segment may be altered using the SEGMENT SPEED function.
EXAMPLE: Modifying a segments speed.
Step 1
Position the segment list to the segment whose speed needs to be changed.Step 2
Select the new speed for the segment at the numeric keypad.Step 3
Position the menu cursor over 4) SEGMENT SPEED, and press ENTER.Should a negative speed be selected, the IN and OUT points of the segment will be reversed.
Should the segment list be played back at a speed other than one times play, the segments with non-nonnal speeds will have their speeds altered proportionately.
4.4.11 SEGMENT PAUSE
A pause may be placed at the end of a segment by using this function. The pause will occur at the end of the segments playing, whether it is played in the forward or reverse direction.
EXAMPLE: Installing a pause.
Step 1
Position the segment list to the segment to have a pause placed after it.A "P" will now be placed in that segments line. When playing the segments list, the A60 will STOP after the segment with the pause is encountered, and may be restarted using any of the nonnal transport keys.
4.4.12 TRIMMING A SEGMENT
While in the SEGMENTS PLA Y mode, the IN and OUT points for a segment may be trimmed.
EXAMPLE: Trimming a segment.
Step 1
Position the segment to be changed to the highlighted area of the menu monitor.Step 2
Press the TRIM key. A number may be selected at the keypad, along with the +/-key to indicate the polarity of the trim. In addition, the trackball may be used to position the disk to a point outside of this seg-ments nonnal boundaries, or to position it to a new point inside of them.Step 3
Depending on the boundary to be changed, press the IN or OUT key to enter the current position or trim value as the new one.4.5 MACROS
The A60 contains twelve macros (1-12) that are designed to speed the process of repetitive operations. A group of instructions, up to 50, can be recorded into a macro, then treated as a single function. In addition, several macros may be linked to each other to create a more versatile operation.
To see the MACROS menu, press NORM PLAY, place the cursor on 2) Macros and press ENTER.
MACROS MENU
The top line shows the number of the current macro, the number of the current step of the
macro, and the function of that step.
4.5.1 MACROS MENU LINES
1) LIST
This will allow the examination of each step of a specified macro, or the current one, byena-bling the trackball to scroll through them. The steps within the macro will not be performed.
2) CREATE
This should be selected to start the macro learning process for the specified macro. A prompt at the bottom of the screen will appear should no macro number be specified. All functions performed from this point on will be recorded as part of this macro.
3) STEP
This will allow the step by step executing of the specified macro, or the current one, with
the exception of any RECORD instructions.
4) EXECUTE
This will cause the selected macro to begin running at full speed, performing each instruc-tionin tum.
5) END
This should be selected to halt the macro CREA TE process.
6) DELETE STEP
This should be used to remove the step being displayed at the top of the monitor from the current macro. The menu line 8) EDIT MACRO must be selected before this mode can be activated.
7) INSERT STEP
This should be used to add a step to the current macro. The new step will be placed in front of the step being displayed. The menu line 8) EDIT MACRO does not have to be enabled for this function to work.
8) EDIT MACRO
This should be selected to enable menu line 6) DELETE STEP.
4.5.2 CREATING A MACRO
When CREA TE is selected along with a macro number, the top of the menu monitor will say "«<ready to record»>". From this point until the end of the learning process, the words "MACRO LEARN" will appear in the lower right comer on all menus.
The easiest way to teach the A60 a macro is to simply perform the task once while in the learning process. Should the task include a record command, that function will not actual-ly be performed, but will be remembered as part of the macro. Almost all functions within
the A60 are available to be part of a macro.
It is possible to create a macro that runs in continuous loop fashion. Instead of selecting
END as the last step of a macro that is being created, select EXECUTE, the number of this macro, and press ENTER. By substituting the number of a different macro after the
4.5.3 FRAME RECORD MACRO EXAMPLE
The following is an example of a macro that could be used to record a frame from a graphics system, and send a GPI pulse to that system to let it know that the frame has been recorded. For this example, OPI 1 OUTPUT will be used, however any of the four could be used, depending on the OPI out connections.
EXAMPLE: Frame record Macro.
Step
1
Press the number 22 and the MENU key. This will select the line2)Macros from the HOME menu, and position the cursor on line
2)CREATE.
Step 2
Select the number of the macro to be created (1-12) and press ENTER.The words "MACRO LEARN" should appear in the lower right comer of the screen.
Step 3
Select the number 1 at the numeric keypad and press the RECORDkey. This will set up a record length of one frame, and arm the system for recording.
Step
4
Press the PLA Y ~ key. This will put a step into this macro that will cause the recording to take place (no recording will t3ke place during the learning process).Step 5
Press the number 55 on the keypad and press MENU. This will select the GPI Assigns menu, and place the cursor on GPI 1 OUTPUT.Step 6
Press ENTER. This will send a strobe pulse to the graphics devicein-dicating that the recording has taken place. This is also assuming that there is a GPI line tied to the graphics device that may be used this way.
Step 7
Press the number 25 on the keypad and press the MENU key. This will select the Macros menu, and position the cursor on line 5)END. line.Step 8
Press ENTER. This stops the learning process for this macro.4.5.4 RUNNING A MACRO
There are two ways to get a macro to run, using the EXECUTE function and by assigning
the macro to one of the GPIINPUTlines, which may then be triggered by an external device. To use the EXECUTE function, simply place the cursor on it, select the number of the macro to run, and press ENTER.
To use the GPIINPUT function, first go to the GPI Assigns menu from the HOME menu. Position the cursor on the one of the four GPI INPUTlines that is connected to the exter-nal device, and press ENTER. The trackball may now be used to change the line from it's default function to any of the 12 macros. A strobe pulse on that line will now trigger the running of the assigned macro.
GPI ASSIGNS MENU
Section
5: REMOTE O·PERATION
'lbere are five methods of remote controlling the A60; through the serial remote port, through
the Ethernet port, through direct RS232 control, by using the TIMECODE
TRIGGERfunc-tion of the REMOTE menu, or by using the GPI (General Purpose Interface) switch closure provisions.
'lbe SCSI port on the back of the A60 also has the provisions for remote control of the sys-tem, however the port is nonnally used to transfer video either to or from a standard 9-track magnetic tape device. For more infonnation on this interface, see the A60/ AM DIGITAL VIDEO INTERFACE MANUAL.
5.1 REMOTE MENU SELECTIONS
To see the REMOTE menu, from the HOME menu, position the cursor on 3)Remote, and
press ENTER.